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Main Authors: Domènech, Guillem, Tsabodimos, Apostolos, Sherrill, Nathaniel, Ganz, Alexander, Kirk, Fiona
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.07490
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author Domènech, Guillem
Tsabodimos, Apostolos
Sherrill, Nathaniel
Ganz, Alexander
Kirk, Fiona
author_facet Domènech, Guillem
Tsabodimos, Apostolos
Sherrill, Nathaniel
Ganz, Alexander
Kirk, Fiona
contents We study the impact of general disformal metric transformations on fermions, which shift the gravitational metric by an additional rank-2 tensor. This tensor can in principle be constructed from scalar-field gradients, vector fields, or field-strength contractions. We show this transformation results in the conventional Dirac action being modified by additional kinetic and axial-current couplings that are quadratic in the shifted field. When the field sourcing the metric shift takes on a non-trivial background value, apparent Lorentz-violating effects can result, which we identify as terms in an effective field theory. Assuming the well-motivated cases of scalar and vector ultralight dark matter, we demonstrate that experimental tests of rotation and boost violation imply constraints on the additional kinetic coupling. Even under conservative assumptions, the constraints for vector ultralight dark matter are extremely stringent.
format Preprint
id arxiv_https___arxiv_org_abs_2510_07490
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Apparent Lorentz violation from disformally coupled ultralight dark matter
Domènech, Guillem
Tsabodimos, Apostolos
Sherrill, Nathaniel
Ganz, Alexander
Kirk, Fiona
High Energy Physics - Phenomenology
General Relativity and Quantum Cosmology
We study the impact of general disformal metric transformations on fermions, which shift the gravitational metric by an additional rank-2 tensor. This tensor can in principle be constructed from scalar-field gradients, vector fields, or field-strength contractions. We show this transformation results in the conventional Dirac action being modified by additional kinetic and axial-current couplings that are quadratic in the shifted field. When the field sourcing the metric shift takes on a non-trivial background value, apparent Lorentz-violating effects can result, which we identify as terms in an effective field theory. Assuming the well-motivated cases of scalar and vector ultralight dark matter, we demonstrate that experimental tests of rotation and boost violation imply constraints on the additional kinetic coupling. Even under conservative assumptions, the constraints for vector ultralight dark matter are extremely stringent.
title Apparent Lorentz violation from disformally coupled ultralight dark matter
topic High Energy Physics - Phenomenology
General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2510.07490